Competent Cells for Library Construction | Thermo Fisher Scientific

A petri dish containing agar and blue colonies being picked by a person wearing a blue glove

Competent cells with very high transformation efficiencies are used for DNA library construction (such as cDNA, gDNA, phage display, and CRISPR and gene libraries) to promote high coverage of unique constructs. Electroporation is a preferred transformation method to create DNA fragment and gene libraries because it provides the highest transformation efficiency. Competent cells for heat-shock transformation are also available.

How critical is transformation efficiency for getting good DNA library representation

E. coli strains for plasmid library construction

These competent cells have mutated mcrA, mcrBC, mrr, and/or hsdRMS restriction systems so they are efficient at cloning methylated DNA, which is important for construction of highly representative eukaryotic genomic libraries.

The following Invitrogen competent cells feature:

Blue/white colony selection
High transformation efficiency

Electrocompetent cells
Chemically competent cells

Electrocompetent bacteria for library preparation

Product
Product	ElectroMAX DH10B Competent Cells	ElectroMAX Stbl4 Competent Cells	ElectroMAX DH10B T1 Phage-Resistant Competent Cells	MegaX DH10B T1R Electrocompetent Cells
Recommended for	gDNA and plasmid rescue	Inverted and direct repeats, CRISPR libraries	gDNA and plasmid rescue (phage resistance)	Large DNA inserts, highest efficiency
Transformation Efficiency	>1 x 10¹⁰ cfu/µg	>5 x 10⁹ cfu/µg	>1 x 10¹⁰ cfu/µg	>3 x 10¹⁰ cfu/µg (highest)
Compatible plasmid size	>20 kb	>100 kb	>20 kb	>100 kb
T1, T5, and φ80 phage resistance (tonA (fhuA))	–	–
Generating ssDNA (Contains F´ episome)	–		–	–
Cloning unstable inserts	–		–	–
M13mp18 RF DNA included	–	–	–	–
Format	5 x 100 µL/tube	5 x 100 µL/tube	5 x 100 µL/tube	5 x 100 µL/tube

Chemically competent bacteria for library preparation

Product
Product	MAX Efficiency DH5αF´IQ Competent Cells	OmniMAX 2 T1R chemically competent E. coli
Recommended for	Phage display, toxic gene cloning	Gateway and TOPO cloning reactions
Transformation Efficiency	>1 x 10⁸ cfu/µg	>5 x 10⁹ cfu/µg
Compatible plasmid size	>20 kb	>20 kb
T1, T5, and φ80 phage resistance (tonA (fhuA))	–
Generating ssDNA (Contains F´ episome)
Cloning unstable inserts	–	–
M13mp18 RF DNA included		–
Format	5 x 200 µL/tube	21 x 50 uL/tube

Electrocompetent cells

Electrocompetent bacteria for library preparation

Product
Product	ElectroMAX DH10B Competent Cells	ElectroMAX Stbl4 Competent Cells	ElectroMAX DH10B T1 Phage-Resistant Competent Cells	MegaX DH10B T1R Electrocompetent Cells
Recommended for	gDNA and plasmid rescue	Inverted and direct repeats, CRISPR libraries	gDNA and plasmid rescue (phage resistance)	Large DNA inserts, highest efficiency
Transformation Efficiency	>1 x 10¹⁰ cfu/µg	>5 x 10⁹ cfu/µg	>1 x 10¹⁰ cfu/µg	>3 x 10¹⁰ cfu/µg (highest)
Compatible plasmid size	>20 kb	>100 kb	>20 kb	>100 kb
T1, T5, and φ80 phage resistance (tonA (fhuA))	–	–
Generating ssDNA (Contains F´ episome)	–		–	–
Cloning unstable inserts	–		–	–
M13mp18 RF DNA included	–	–	–	–
Format	5 x 100 µL/tube	5 x 100 µL/tube	5 x 100 µL/tube	5 x 100 µL/tube

Chemically competent cells

Chemically competent bacteria for library preparation

Product
Product	MAX Efficiency DH5αF´IQ Competent Cells	OmniMAX 2 T1R chemically competent E. coli
Recommended for	Phage display, toxic gene cloning	Gateway and TOPO cloning reactions
Transformation Efficiency	>1 x 10⁸ cfu/µg	>5 x 10⁹ cfu/µg
Compatible plasmid size	>20 kb	>20 kb
T1, T5, and φ80 phage resistance (tonA (fhuA))	–
Generating ssDNA (Contains F´ episome)
Cloning unstable inserts	–	–
M13mp18 RF DNA included		–
Format	5 x 200 µL/tube	21 x 50 uL/tube

Phage display library construction

Phage display libraries are used to discover antibodies [1] and have been used to identify human antibodies against SARS-CoV-2 [2]. In addition to high transformation efficiency competent cells, phage display protocols require a M13KO7 Helper Phage that can be acquired separately.

CRISPR library construction

CRISPR screening workflows often require construction of sgRNA libraries. Stbl4 competent cells have been used to successfully build these RNA libraries [3].

Preparing cDNA and genomic DNA libraries

Thermo Fisher Scientific provides many reagents and resources for bacterial library construction. cDNA can be constructed using the Invitrogen Second Strand cDNA Synthesis Kit or other cDNA library construction kits.

For genomic DNA library preparation, use Invitrogen genomic DNA extraction kits to consistently achieve excellent results.

Tips for transforming bacteria for construction of DNA libraries

Still not sure which competent cells are right for construction of your DNA library?

See genotypes of Invitrogen competent cells

References

Competent cells: Featured products

In addition to competent cells, we offer a broad suite of products for the cloning workflow.

Magnified image of purple, rod-shaped bacteria

Microbial
media

Explore types of bacterial growth media to use for cloning, plasmid DNA preparation, and protein expression.

Browse media

Electroporation
cuvettes

Learn more about universal-fit electroporation cuvettes for use with competent cells.

View electroporation cuvettes

Photo of TOPO PCR cloning kit product box and content

TOPO PCR
cloning kits

Learn more about one-step PCR cloning that combines traditional restriction and ligation cloning.

View TOPO kits

Gibson Assembly
cloning kits

Gibson Assembly cloning kits provide highly efficient, seamless cloning, enabling the assembly of multiple DNA fragments of varying lengths into any vector.

Explore Gibson Assembly cloning

Resources

Have any questions on competent cells or transformation? Click on the resources listed below to access overviews, videos, genotype guides, and educational resources.